DE10111016A1 - Mixture of materials for the production of lightweight concrete - Google Patents

Abstract

The invention relates to a mixture of substances for the production of lightweight concrete, at least consisting of the substances cement, basalt stone powder, melting clay and vinyl acetate-versatate copolymers, water being added to the mixture of substances in the completion of the lightweight concrete in order to initiate the binding reaction put. According to advantageous embodiments, expanded clay and / or expanded gas are also added to the mixture of substances. The invention further relates to a lightweight concrete that was produced using these mixtures.

Description

The present invention relates to a mixture of substances Production of lightweight concrete or such a lightweight concrete self.

Under concrete, a mixture of binder, Viewed aggregates and water. Where as a binder in the Rule cement (a hydraulic binder building material) is used becomes. Different types of concrete differ in that used aggregates, the density of the structure and the achievable compressive strength.

As lightweight concrete, types of concrete are referred to, which are easy to hit such. B. pumice, expanded clay, styrofoam or similar substances. Lightweight concrete has a significantly reduced mass compared to normal concrete, so that it is often used when the net weight is to be kept small. In the construction industry, one usually speaks of lightweight concrete if the so-called dry bulk density is less than 2000 kg / m ³ . In the case of conventional lightweight concrete, however, the addition of the lightweight aggregates has a disadvantageous effect on the compressive strength, which is significantly lower than that of normal concrete. The compressive strength of concrete is usually given in Newtons per square millimeter (N / mm ² ) and is between 20 and 30 N / mm ² for normal concrete. In contrast, conventional lightweight concrete only has a compressive strength of approximately 2 -5 N / mm ² .

From DE 198 31 295 A1, for example, a lightweight concrete is known, in which expanded polystyrene balls are used as additives instead of sand or gravel, which have a size of about 6 mm. Furthermore, a superplasticizer based on melamine resin is added to the lightweight concrete, which results in a lightweight concrete with a bulk density of about 600 kg / m ³ . This known lightweight concrete is connected to a wooden structure, which takes on supporting functions in the building, since the lightweight concrete itself can only perform static tasks to a small extent.

DE 198 57 130 A1 describes a process for the production of Lightweight concrete described. As aggregates come here Plastic waste used previously by chemical Treatment with strong alkalis and / or strong acids inerti must be settled.

In addition to the problem of significantly reduced compared to normal concrete best compressive strength of conventional lightweight concrete types hen regarding the use of plastics as Surcharges or binders or plasticizers are considerable ecological Concerns. For example, contained in lightweight concrete Synthetic resins secrete harmful gases over a long period of time Health and wellbeing of residents accordingly Can affect buildings. There is also due to the reduced compressive strength the problem that from Parts of a building made of lightweight concrete usually do not can take on the supporting function, so that additional Beam made of normal concrete or other materials (steel, wood) must be provided.

It is therefore an object of the present invention to specify a mixture of substances for the production of lightweight concrete, which makes it possible to produce lightweight concrete, on the one hand has a low dry bulk density and on the other hand a  has high compressive strength that matches the compressive strength of Normal concrete is comparable.

These and other tasks are solved by a mixture of substances consisting of the following substances:

• - cement,
• - basalt stone powder,
• - melting clay,
• - vinyl acetate-versatate copolymers.

This mixture of substances according to the invention is obtained by adding Process the appropriate amount of water into a lightweight concrete tet. The term "lightweight concrete" is used in general for the mixture of substances used according to the invention, even if the Lightweight concrete itself only arises after adding water, which initiates the desired hydraulic binding reactions are ultimately used to harden the lightweight concrete to lead.

A lightweight concrete made from these materials is suitable especially as a leveling or leveling compound, as it is also used for thin layer has sufficient strength. The lightweight concrete containing the substances mentioned is before Hardening self-leveling and easy to fill. The still liquid lightweight concrete can be applied to any solid sub reasons are applied and already has one Drying time of about 24 hours a high toughness.

In a known manner, an adhesive primer (e.g. Ottoflex) can be applied to the substrate for better bonding between individual layers before the light concrete is applied. With a suitable mixing ratio of the individual components (see below), the dry bulk density of this first embodiment of the lightweight concrete is approximately 1.0-1.2 g / cm ³ (1000-1200 kg / m ³ ).

A modified embodiment of the lightweight concrete is characterized in that the starting material mixture further contains expanded glass with a grain size of 1-2 mm. This embodiment is suitable for use as building concrete and as screed. Due to the mixing ratio given below, the specific mass of the lightweight concrete according to this embodiment is reduced to approximately 0.8 g / cm ³ . The addition of expanded glass also improves thermal insulation and structure-borne noise insulation.

The drying time is the inven in all embodiments compared to conventional lightweight concrete, so that after about 7 days, for example, the next one Layer of a floor structure on the invention Light concrete can be applied. Another advantage is that the fire protection properties improve are, since the lightweight concrete according to the invention no synthetic resins contains, and therefore not at temperatures up to 1,000 ° C is flammable. Furthermore, the lightweight concrete can be easily and without Environmental impacts are recycled.

A further modified embodiment of the lightweight concrete also contains expanded clay in addition to expanded glass, an amount of approximately 17% of the total mass being appropriate. The above-mentioned advantageous properties can also be achieved with this mixture of substances. A change arises with regard to the specific mass, which is approximately 1.25 g / cm ³ , and with regard to the compressive strength that can be achieved.

It is useful if the above. Basalt stone powder as the main Ingredients silica, aluminum oxide and magnesium oxide has, wherein it contains other metal oxides in small proportions may contain.

A particularly noteworthy advantage of the lightweight concrete according to the invention is that high compressive strengths are established even after short curing times. After 7 days, the lightweight concrete has a bending tensile strength of 2.5 N / mm ² and a compressive strength of 11 N / mm ² .

Further advantages, details and further developments result preferred execution from the following description forms of lightweight concrete.

According to a first embodiment, the lightweight concrete according to the invention is used as a leveling and leveling compound. To produce the lightweight concrete, the following substances are mixed with each other in the specified mass fractions in a conventional manner as homogeneously as possible:

• - cement 39%,
• - balsalt stone powder (MSM) 16%,
• - melting clay 6%,
• Vinyl acetate-versatate copolymers (PAV 333 ) 3%,
• - water 36%.

The mass proportions can vary depending on the application. The percentages mentioned are merely advantageous average values. For example, a product from Deuna Zement GmbH with the product name CEM 1 can be used as cement, which after 28 days results in a compressive strength of about 50 N / mm ² when processed into normal concrete.

The basalt stone powder to be used is supplied, for example, by the Zeilberg quarry and has the following composition:

• - silica 43.02%,
• - iron oxide 3.60%,
• - iron oxidol: 7.52%,
• Aluminum oxide 13.28%,
• - titanium oxide 1.95%,
• Manganese oxide 0.15%,
• Calcium oxide 9.85%,
• - magnesium oxide 11.95%,
• Potassium oxide 0.95%,
• Sodium oxide 3.44%,
• - phosphoric anhydride 0.68%,
• - loss on ignition 3.64%.

The grain size of the stone powder is in the range of 0-0.1 mm. Of course, other stone flours can also be used, that have comparable chemical properties.

The vinyl acetate-versatate copolymers (product name PAV 333 ), which can be obtained, for example, from Rhodia under the trade name Rhoximat, are a rheological additive which is used as a cementitious binder.

The proportion of water added can vary depending on the desired Viscosity vary. For use as a leveling compound the water content should be chosen somewhat higher than if the Lightweight concrete should be used as a filler.  

According to a modified embodiment, the lightweight concrete also contains expanded glass with a grain size of 1-2 mm in addition to the substances already mentioned. This embodiment can be used as building concrete or as screed. The special advantage is the very low mass, which is about 0.8 g / cm ³ . The mixture of substances preferably consists of the following mass fractions:

• - blowing gas 24.5%,
• - cement 42.0%,
• - basalt stone powder (MSM) 3.5%,
• - melting clay 7.0%,
• Vinyl acetate-versatate copolymers (PAV 333 ) 2.0%,
• - water 21.0%.

A further modified embodiment is characterized in that expanded clay is used as an additional additive. Building concrete and screed have again proven to be preferred areas of application. Similar to the previously mentioned embodiment, this lightweight concrete is suitable for applications in which special requirements are placed on thermal insulation and structure-borne noise insulation. The lightweight concrete dries out quickly, so that after 7 days the construction work can continue on the layers produced, e.g. B. in which another layer of light clay is applied. This lightweight concrete is also easy to recycle because it does not contain any substances that are harmful to the environment. The lightweight concrete differs from the aforementioned embodiment by a slightly increased specific mass of approximately 1.25 g / cm ³ . The following mixture of materials is preferred for this version:

• - expanded glass 4.5%,
• - expanded clay 17.0%,
• - cement 37.0%,
• - basalt stone powder 3.5%,
• - melting clay 7.5%,
• Vinyl acetate-versatate copolymers (PAV 333 ) 2.5%,
• - water 28.0%.

In this embodiment, too, the required water is attached part of the desired area of application.

With the added expanded glass, a grain size of 1-2 mm and with the expanded clay a grain size of about 6 mm prefers.

Strength measurements were carried out on lightweight concrete elements that were produced in accordance with the third embodiment, which gave the following values after a hardening time of 7 days:
Bending tensile strength: 2.5 N / mm ²
Compressive strength: 11.0 N / mm ²

With the composition mentioned, a dry bulk density of 1 g / cm ³ resulted.

It has been shown that with the Leichtbe according to the invention ton a material is available that is superior to conventional lightweight concrete, significantly improved strength values has, while the achievable dry bulk density essentially the values of known lightweight concrete materials equivalent. In addition, the drying time is significantly reduced Lich, so that the construction process is usually shortened  can. Furthermore, it is advantageous that plastic sentences can be largely or completely dispensed with, so that the lightweight concrete according to the invention in a simple manner can be sent to a recycling process.

The specified mixing ratios are only as To understand standard values. Those skilled in the art will recognize that at changed requirements for the properties of the corpse tons of different mixing ratios can be selected.

Claims (10)

1. Mixture of substances for the production of lightweight concrete consisting of the following substances:

• - cement,
• - basalt stone powder (MSM),
• - melting clay,
• - vinyl acetate-versatate copolymers (PAV333),

wherein water is added to the mixture of substances when the lightweight concrete is finished in order to start the binding reactions. 2. Mixture of substances for the production of lightweight concrete according to claim 1, characterized in that it comprises the following mass-related substances:

• - 39% cement,
• - 16% basalt stone powder,
• - 6% alumina,
• - 3% vinyl acetate-versatate copolymers (PAV333),
• - 36% water,

where the mass proportions can deviate by ± 10% from the specified values. 3. Mixture of substances according to claim 1 or 2, characterized in that it serves the production of leveling or Spach tel mass with a dry bulk density of 1.0-1.2 g / cm ³ . 4. Mixture of materials for the production of lightweight concrete Claim 1, characterized in that it continues Contains expanded glass with a grain size of 1-2 mm.   5. Mixture of substances according to claim 4, characterized in that it is used for the production of lightweight concrete or screed with a dry bulk density of about 0.8 g / cm ³ , and that the expanded glass is contained with a mass fraction of about 25%. 6. Mixture of materials for the production of lightweight concrete Claim 4, characterized in that it continues Contains expanded clay with a grain size of up to 6 mm. 7. Mixture of substances according to claim 6, characterized in that it serves for the production of lightweight concrete or screed with a dry bulk density of about 1.25 g / cm ³ , and that the expanded glass with a mass fraction of about 5% and the expanded clay with a mass fraction of about 17% are included. 8. Mixture of substances for the production of lightweight concrete according to one of claims 1 to 7, characterized in that the basalt stone powder comprises the following main components:

• - silica,
• - aluminum oxide,
• - magnesium oxide.

9. mixture of substances for the production of lightweight concrete according to one of claims 1 to 8, characterized in that the lightweight concrete after a curing time of 7 days, a bending tensile strength of at least 2.5 N / mm ² and a Druckfes activity of at least 11 N / mm ² having. 10. Lightweight concrete, characterized in that it consists of a Mixture of substances according to one of claims 1 to 9 Addition of water is made.